Additive manufacturing system of metal products by selective laser melting Mlab cusing R CUSING (Concept Laser, Germany)

Overall dimensions of the construction zone – 90×90×80 mm Capacity – 20 cm3/h The thickness of the construction layer is 25 microns Laser power – 100 W

Additive manufacturing of small-sized complex parts by selective laser melting using Laser CUSING technology from reactive and non-reactive metal powders. High-precision printing with metal powders, including steel, titanium, tantalum, niobium and other precious metals and alloys. The use of a vacuum working chamber makes it possible to produce models from reactive metals.

Non-destructive Optical Inspection System (3D scanner) Smarttech3D scan3D UNIVERSE

Scanning technology: Structured light Scanning area: from 150×200×120 mm to to 300×400×300 mm Scan Resolution: 2,5 Mpix Scanning accuracy: 50-70 microns Scan time: 1-10 s

A comprehensive hardware and software solution for creating 3D documentation of any objects and processing measurement results (for example, for 3D printing). Creation of 3D documentation of technical, natural and museum objects.

Fields of application: reverse engineering, automotive, instrumentation, education, architecture and design, archeology, digital museums.

Shimadzu AG-X plus 10 kN High-precision Universal Testing Machine

Max. load: 10kN Trials: Tension (wedge-shaped clamps, 5 kN pneumatic clamps, belt clamps) Compression Bending Cyclic testing (3-5 cycles per minute) Loading method: direct, high-precision, constant deformation control using a precision drive with a screw on a ball bearing.

Physical and mechanical tests of various materials for tension, compression, rupture and bending. The possibility of conducting standard quality control tests, general-purpose mechanical tests and scientific research.

FDM/FFF 3D printer Designer X PRO (manufacturer Picaso 3D)

Printing technology: FFF(FDM) Dimensions, mm: 492×390×430 Weight, kg: 16 Software: PICASO 3D Polygon X Number of print heads: 2 Supported file formats: stl, plg Working chamber, mm: 200×200×210 Layer thickness, microns, from: 50-200 Positioning accuracy XY, microns: 11 Positioning accuracy Z, microns: 1,25 Extrusion temperature, up to, °C: 380 Platform temperature, up to, °C: 140 Supported materials: ABS, PLA, FLEX, NYLON, ASA, ABS\PC, PET, PC, PVA, HIPS Thread diameter, mm: 1.75± 0.1 Print speed, cm3/h, up to: 30

FDM/FFF 3D принтер Wanhao Duplicator D12/500

Maximum print speed, mm/s: 150 Thread diameter, mm: 1.75 Print material: PLA, PETG, SILK Print area, mm: 500×500×500 Feed plastic integrity sensor Printed layer thickness from 0.1 to 0.4 mm Suitable for all materials with a melting point < 260°C Aluminum platform with magnetic platform Touch screen 5" Thread cooling system 360° Resume function Extruder MK12 Software CURA, Repetier Host, Simplify 3D Dimensions (W×H×D): 60×82×80 cm Product weight: 20.5 kg

Fused Deposition Printing (FDM) technology has become widespread among individual users and small companies due to its wide capabilities, relative simplicity and good affordability. The popularity of this method deserves a more detailed description of the process and the printers used. In this section, we will look at the nuances of the design of printers and the application of technology in practice.

SLA 3D printer Form 3 (manufacturer Formlabs)

Laser spot diameter 85 mcm Laser wavelength 405 nm Laser 1×250 mWt LFS printing Working chamber area 145×145×185 mm Materials used Photopolymer Layer thickness from 25 mcm Display Touch 5.5" 1280×720 Wifi;Ethernet and USB interfaces

Printing based on photopolymers is carried out using the SLA stereolithography method. I the printing process is applied liquid polymer. The printer itself consists of a powerful laser, as well as a bathroom in which the base platform is located.